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Medientyp:
E-Book
Titel:
Computational neuroscience and cognitive modelling
:
a student's introduction to methods and procedures
Enthält:
COVER; Contents; Preface; 1. An Introduction to the Ideas and Scope of Computational Methods in Psychology; Part I: Modelling Neurons; 2. What Is a Differential Equation?; 3. Numerical Application of a Differential Equation; 4. Intermezzo: Computing with Loops; 5. From Action Potentials to Programming Neurons: Integrate and Fire; 6. Intermezzo: Computing with if Statements; 7. Hodgkin and Huxley: The Men and Their Model; 8. Intermezzo: Computing with Functions; Part II: Neural Networks; 9. Neural Network Mathematics: Vectors and Matrices; 10. Intermezzo: Interactive Computing
11. An Introduction to Neural Networks12. Intermezzo: Interactive Exploration of the Delta Rule with Octave; 13. Auto-associative Memory and the Hopfield Net; Part III: Probability and Psychological Models; 14. What Are the Odds?; 15. Decisions as Random Walks; 16. Intermezzo: Programming Psychophysical Experiments with Python; Part IV: Cognitive Modelling as Logic and Rules; 17. Boolean Logic; 18. Intermezzo: Computing with Functional Languages; 19. Production Rules and Cognition; 20. Intermezzo: Functional Coding of a Simple Production System; 21. ACT-R: A Cognitive Architecture
22. Agent-Based Modelling23. Concluding Remarks; Notes; References; Index
Anmerkungen:
Description based upon print version of record
Beschreibung:
This unique, self-contained and accessible textbook provides an introduction to computational modelling in psychology and neuroscience accessible to students with little or no background in computing or mathematics.
COMPUTATIONAL NEUROSCIENCE AND COGNITIVE MODELLING COVER -- COMPUTATIONAL NEUROSCIENCE AND COGNITIVE MODELLING -- CONTENTS -- PREFACE -- CHAPTER 1: AN INTRODUCTION TO THE IDEAS AND SCOPE OF COMPUTATIONAL METHODS IN PSYCHOLOGY -- PART I: MODELLING NEURONS -- CHAPTER 2: WHAT IS A DIFFERENTIAL EQUATION? -- CHAPTER 3: NUMERICAL APPLICATION OF A DIFFERENTIAL EQUATION -- CHAPTER 4: INTERMEZZO: COMPUTING WITH LOOPS -- CHAPTER 5: FROM ACTION POTENTIALS TO PROGRAMMING NEURONS: INTEGRATE AND FIRE -- CHAPTER 6: INTERMEZZO: COMPUTING WITH IF STATEMENTS -- CHAPTER 7: HODGKIN AND HUXLEY: THE MEN AND THEIR MODEL -- CHAPTER 8: INTERMEZZO: COMPUTING WITH FUNCTIONS -- PART II: NEURAL NETWORKS -- CHAPTER 9: NEURAL NETWORK MATHEMATICS: VECTORS AND MATRICES -- CHAPTER 10: INTERMEZZO: INTERACTIVE COMPUTING -- CHAPTER 11: AN INTRODUCTION TO NEURAL NETWORKS -- CHAPTER 12: INTERMEZZO: INTERACTIVE EXPLORATION OF THE DELTA RULE WITH OCTAVE -- CHAPTER 13: AUTO-ASSOCIATIVE MEMORY AND THE HOPFIELD NET -- PART III: PROBABILITY AND PSYCHOLOGICAL MODELS -- CHAPTER 14: WHAT ARE THE ODDS? -- CHAPTER 15: DECISIONS AS RANDOM WALKS -- CHAPTER 16: INTERMEZZO: PROGRAMMING PSYCHOPHYSICAL EXPERIMENTS WITH PYTHON -- PART IV: COGNITIVE MODELLING AS LOGIC AND RULES -- CHAPTER 17: BOOLEAN LOGIC -- CHAPTER 18: INTERMEZZO: COMPUTING WITH FUNCTIONAL LANGUAGES -- CHAPTER 19: PRODUCTION RULES AND COGNITION -- CHAPTER 20: INTERMEZZO: FUNCTIONAL CODING OF A SIMPLE PRODUCTION SYSTEM -- CHAPTER 21: ACT-R: A COGNITIVE ARCHITECTURE -- CHAPTER 22: AGENT-BASED MODELLING -- CHAPTER 23: CONCLUDING REMARKS -- NOTES -- REFERENCES -- INDEX.